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   <h1>  <hr width="100%">Sharing Declarations Between Cython Modules  
<hr width="100%"></h1>
  This section describes a new set of facilities introduced in Cython 0.8
for making C declarations and extension types in one Cython module available
for use in another Cython module. These facilities are closely modelled on
the Python import mechanism, and can be thought of as a compile-time version 
of it.  
<h2> Contents</h2>
   <ul>
  <li> <a href="#DefAndImpFiles">Definition and Implementation files</a></li>
       <ul>
  <li> <a href="#WhatDefFileContains">What a Definition File contains</a></li>
   <li> <a href="#WhatImpFileContains">What an Implementation File contains</a></li>
      </ul>
   <li> <a href="#CImportStatement">The <tt>cimport</tt> statement</a></li>
       <ul>
  <li> <a href="#SearchPaths">Search paths for definition files</a></li>
   <li> <a href="#ResolvingNamingConflicts">Using <tt>cimport</tt> to resolve 
naming conflicts</a></li>
      </ul>
   <li> <a href="#SharingExtensionTypes">Sharing extension types</a></li>
  </ul>
   <h2> <a name="DefAndImpFiles"></a>Definition and Implementation files</h2>
  A Cython module can be split into two parts: a <i>definition file</i> with
 a <tt>.pxd</tt> suffix, containing C declarations that are to be available
 to other Cython modules, and an <i>implementation file</i> with a <tt>.pyx</tt>
suffix, containing everything else. When a module wants to use something
declared in another module's definition file, it imports it using the <a href="#CImportStatement"><b>cimport</b> statement</a>.  
<h3> <a name="WhatDefFileContains"></a>What a Definition File contains</h3>
  A definition file can contain:  
<ul>
  <li> Any kind of C type declaration.</li>
   <li> <b>extern</b> C function or variable declarations.</li>
   <li> The definition part of an extension type (<a href="#SharingExtensionTypes">see below</a>).</li>
  </ul>
  It cannot currently contain any non-extern C function or variable declarations
 (although this may be possible in a future version).  
<p>It cannot contain the implementations of any C or Python functions, or 
any Python class definitions, or any executable statements. </p>
 <blockquote>NOTE: You don't need to (and shouldn't) declare anything in a 
declaration file <b>public</b> in order to make it available to other Cython 
modules; its mere presence in a definition file does that. You only need a
public declaration if you want to make something available to external C code.</blockquote>
   <h3> <a name="WhatImpFileContains"></a>What an Implementation File contains</h3>
  An implementation file can contain any kind of Cython statement, although
 there are some restrictions on the implementation part of an extension type 
if the corresponding definition file also defines that type (see below).
 
<h2> <a name="CImportStatement"></a>The <tt>cimport</tt> statement</h2>
  The <b>cimport</b> statement is used in a definition or implementation
file to gain access to names declared in another definition file. Its syntax
exactly parallels that of the normal Python import statement:  
<blockquote><tt>cimport </tt><i>module</i><tt> [, </tt><i>module</i><tt>...]</tt></blockquote>
   <blockquote><tt>from </tt><i>module</i><tt> cimport </tt><i>name</i><tt>
[as   </tt><i>name</i><tt>] [, </tt><i>name</i><tt> [as </tt><i>name</i><tt>]
 ...]</tt></blockquote>
  Here is an example. The file on the left is a definition file which exports
 a C data type. The file on the right is an implementation file which imports
 and uses it. <br>
 &nbsp; <table cellpadding="5" cols="2" width="100%">
  <tbody>
     <tr>
  <td bgcolor="#ffcc00" width="40%"><b><tt>dishes.pxd</tt></b></td>
   <td bgcolor="#5dbaca"><b><tt>restaurant.pyx</tt></b></td>
  </tr>
   <tr align="left" valign="top">
  <td bgcolor="#ffcc18" width="40%"><tt>cdef enum otherstuff:</tt> <br>
       <tt>&nbsp;&nbsp;&nbsp; sausage, eggs, lettuce</tt>             <p><tt>cdef struct spamdish:</tt> <br>
       <tt>&nbsp;&nbsp;&nbsp; int oz_of_spam</tt> <br>
       <tt>&nbsp;&nbsp;&nbsp; otherstuff filler</tt></p>
       </td>
   <td bgcolor="#5dbaca"><tt>cimport dishes</tt> <br>
       <tt>from dishes cimport spamdish</tt>             <p><tt>cdef void prepare(spamdish *d):</tt> <br>
       <tt>&nbsp;&nbsp;&nbsp; d.oz_of_spam = 42</tt> <br>
       <tt>&nbsp;&nbsp;&nbsp; d.filler = dishes.sausage</tt> </p>
             <p><tt>def serve():</tt> <br>
       <tt>&nbsp;&nbsp;&nbsp; spamdish d</tt> <br>
       <tt>&nbsp;&nbsp;&nbsp; prepare(&amp;d)</tt> <br>
       <tt>&nbsp;&nbsp;&nbsp; print "%d oz spam, filler no. %d" % \</tt>
      <br>
       <tt>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; (d-&gt;oz_of_spam,
 d-&gt;filler)</tt></p>
       </td>
  </tr>
      </tbody> </table>
   <p>It is important to understand that the <b>cimport</b> statement can <i>only</i>
be used to import C data types, external C functions and variables, and extension 
types. It cannot be used to import any Python objects, and (with one exception) 
it doesn't imply any Python import at run time. If you want to refer to any 
Python names from a module that you have cimported, you will have to include 
a regular <b>import</b> statement for it as well. </p>
 <p>The exception is that when you use <b>cimport</b> to import an extension
 type, its type object is imported at run time and made available by the
name under which you imported it. Using <b>cimport</b> to import extension
types is covered in more detail <a href="#SharingExtensionTypes">below</a>.
</p>
 <h3> <a name="SearchPaths"></a>Search paths for definition files</h3>
  When you <b>cimport</b> a module called <tt>modulename</tt>, the Cython
compiler searches for a file called <tt>modulename.pxd</tt> along the search
path for include files, as specified by <b>-I</b> command line options.  
<p>Also, whenever you compile a file <tt>modulename.pyx</tt>, the corresponding
 definition file <tt>modulename.pxd</tt> is first searched for along the
same path, and if found, it is processed before processing the <tt>.pyx</tt>
file.  </p>
 <h3> <a name="ResolvingNamingConflicts"></a>Using cimport to resolve naming
 conflicts</h3>
  The cimport mechanism provides a clean and simple way to solve the problem
 of wrapping external C functions with Python functions of the same name.
All you need to do is put the extern C declarations into a .pxd file for
an imaginary module, and cimport that module. You can then refer to the C
functions by qualifying them with the name of the module. Here's an example:
<br>
 &nbsp; <table cellpadding="5" cols="2" width="100%">
  <tbody>
     <tr>
  <td bgcolor="#ffcc00" width="50%"><b><tt>c_lunch.pxd</tt></b></td>
   <td bgcolor="#5dbaca"><b><tt>lunch.pyx</tt></b></td>
  </tr>
   <tr align="left" valign="top">
  <td bgcolor="#ffcc18" width="50%"><tt>cdef extern from "lunch.h":</tt>
      <br>
       <tt>&nbsp;&nbsp;&nbsp; void eject_tomato(float)</tt></td>
   <td bgcolor="#5dbaca"><tt>cimport c_lunch</tt>             <p><tt>def eject_tomato(float speed):</tt> <br>
       <tt>&nbsp;&nbsp;&nbsp; c_lunch.eject_tomato(speed)</tt></p>
       </td>
  </tr>
      </tbody> </table>
   <p>You don't need any <tt>c_lunch.pyx</tt> file, because the only things
defined in <tt>c_lunch.pxd</tt> are extern C entities. There won't be any
actual <tt>c_lunch</tt> module at run time, but that doesn't matter -- <tt>c_lunch</tt>
has done its job of providing an additional namespace at compile time. </p>
 <h2> <a name="SharingExtensionTypes"></a>Sharing Extension Types</h2>
  An extension type declaration can also be split into two parts, one in
a definition file and the other in the corresponding implementation file.
<br>
 <br>
 The definition part of the extension type can only declare C attributes
and C methods, not Python methods, and it must declare <i>all</i> of that
type's C attributes and C methods.<br>
 <br>
 The implementation part must implement all of the C methods declared in
the definition part, and may not add any further C attributes. It may also
define Python methods.  
<p>Here is an example of a module which defines and exports an extension
type, and another module which uses it. <br>
 &nbsp; <table cellpadding="5" cols="2" width="100%">
  <tbody>
     <tr>
  <td bgcolor="#ffcc18" width="30%"><b><tt>Shrubbing.pxd</tt></b></td>
   <td bgcolor="#5dbaca" width="50%"><b><tt>Shrubbing.pyx</tt></b></td>
  </tr>
   <tr align="left" valign="top">
  <td bgcolor="#ffcc18" width="30%"><tt>cdef class Shrubbery:</tt> <br>
       <tt>&nbsp;&nbsp;&nbsp; cdef int width</tt> <br>
       <tt>&nbsp;&nbsp;&nbsp; cdef int length</tt></td>
   <td bgcolor="#5dbaca" width="50%"><tt>cdef class Shrubbery:</tt> <br>
       <tt>&nbsp;&nbsp;&nbsp; def __new__(self, int w, int l):</tt> <br>
       <tt>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; self.width = w</tt>
      <br>
       <tt>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp; self.length = l</tt>
            <p><tt>def standard_shrubbery():</tt> <br>
       <tt>&nbsp;&nbsp;&nbsp; return Shrubbery(3, 7)</tt></p>
       </td>
  </tr>
   <tr>
  <td colspan="2" bgcolor="#8cbc1c" width="30%"><b><tt>Landscaping.pyx</tt></b></td>
  </tr>
   <tr>
  <td colspan="2" bgcolor="#99cc00" width="30%"><tt>cimport Shrubbing</tt>
      <br>
       <tt>import Shrubbing</tt>             <p><tt>cdef Shrubbing.Shrubbery sh</tt> <br>
       <tt>sh = Shrubbing.standard_shrubbery()</tt> <br>
       <tt>print "Shrubbery size is %d x %d" % (sh.width, sh.height)</tt>
      <br>
 &nbsp;</p>
       </td>
  </tr>
      </tbody> </table>
   </p>
 <p>Some things to note about this example: </p>
 <ul>
  <li> There is a <tt>cdef class Shrubbery</tt> declaration in both Shrubbing.pxd
 and Shrubbing.pyx. When the Shrubbing module is compiled, these two declarations
 are combined into one.</li>
   
 &nbsp; <li> In Landscaping.pyx, the <tt>cimport Shrubbing</tt> declaration 
allows us to refer to the Shrubbery type as <tt>Shrubbing.Shrubbery</tt>. 
But it doesn't bind the name <tt>Shrubbery</tt> in Landscaping's module namespace
 at run time, so to access <tt>Shrubbery.standard_shrubbery</tt> we also
need to <tt>import Shrubbing</tt>.</li>
  </ul>
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